CORDIS Project
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This project aims to advance fundamental physics testing using hydrogen molecules (H2) by developing a novel method to trap cold H2 samples. By employing superconducting magnetic and optical dipole traps, the project seeks to enhance the precision of H2 spectroscopy, potentially improving measurement accuracy significa…
Due to its simplicity, H2 constitutes a perfect tool for testing fundamental physics: testing quantum electrodynamics, determining fundamental constants, or searching for new physics beyond the Standard Model. H2 has a huge advantage over the other simple calculable systems (such as H, He, or HD+) of having a set of a few hundred ultralong living rovibrational states, which implies the ultimate limit for testing fundamental physics with H2 at a relative accuracy level of 10^-24.
The present expe…
UNIWERSYTET MIKOLAJA KOPERNIKA
UNIWERSYTET MIKOLAJA KOPERNIKA W TORUNIU
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